CN102067367A

CN102067367A - Device for cooling a vehicle battery

Info

Publication number: CN102067367A
Application number: CN2009801234189A
Authority: CN
Inventors: 卡罗琳·施密德; 多比雅·伊泽梅耶尔; 马库斯·科尔贝格尔; 弗洛里安·莫尔多万; 托马斯·席海伦; 赫伯特·达姆斯奥恩; 马丁·斯坦巴克; 汉斯-乔治·赫尔曼; 于尔根·埃克斯坦
Original assignee: Behr GmbH and Co KG
Current assignee: Mahle Behr GmbH and Co KG
Priority date: 2008-06-17
Filing date: 2009-06-15
Publication date: 2011-05-18
Anticipated expiration: 2029-06-15
Also published as: DE102008028400A1; US20110206966A1; US8435665B2; CN102067367B; EP2301099A1; BRPI0914840A2; EP2301099B1; WO2009153012A1

Abstract

The invention relates to a device for cooling a vehicle battery, comprising a plurality of electric storage elements (6), and a cooling body (1) being flowed through by a coolant fluid, wherein at least one of the electric storage elements (6) is fixed at least on one cooling plate (3) in thermal contact, and wherein the cooling plate (3) is connected to the cooling body (1) so that heat may be transferred from the storage element (6) to the fluid, wherein the cooling plate (3) has a planar mechanical connection to the cooling body (1).

Description

The device that is used for the vehicle battery heat radiation

Technical field

The present invention relates to a kind of device that is used for the vehicle battery heat radiation as described in the preamble as claimed in claim 1.

Background technology

In the existing automobile,, specific (special) requirements is arranged for the heat radiation of electrical energy storage device sometimes because high power density.Such energy storing device is used as the promotion battery of electronic or hybrid vehicle usually.These promote battery can be lithium atom storage battery, ultracapacitor, fuel cell, traditional rechargeable battery or these combination of elements.Known have a series of schemes to be used to make these assemblies to carry out efficiently radiates heat, but these schemes expend cost or consuming cost usually on making, perhaps be restricted on radiating efficiency.

Summary of the invention

The purpose of this invention is to provide a kind of device that is used for the vehicle battery heat radiation, this device can simply and inexpensively be made, and this device also provides effectively and the heat radiation of reliable operation.

The aforesaid device of the technical characterictic of above-mentioned purpose by having claim 1 of the present invention is realized.Provide good thermo-contact by comprehensive mechanical connection structure, yet, be difficult to realize good thermo-contact heat dissipation element when heating panel and heat dissipation element are only carried out in the bonding processing.In a preferred embodiment of the present invention, heat dissipation element be appreciated that be meant one have that fluid is flowed through, be the body of slab construction substantially, wherein, fluid can be the liquid coolant of heat radiation circulation, also can be for example cold-producing medium in the motor vehicle air conditioning system of heat dissipation element, this cold-producing medium evaporates in described heat dissipation element.Sufficient radiating efficiency it is also conceivable that the heat dissipation element that adopts multithread road, can be provided under all working condition with coolant runner and refrigerant flow path.

In preferred expansion scheme, the mechanical connection structure forms like this, that is, make heating panel be fixed on the heat dissipation element after the accumulate element is connected.Procedure of processing is reasonably separated and realize better automation.Accumulate element and heating panel be connected this for example can by bonding, grip or alternate manner is realized.Especially, can think the lithium atom storage battery (" coffee bag (Coffee-Bags) ") that has the plane formula structure and self do not have outer rigid housing for the accumulate element.

In order to ensure having sufficient mechanical rigid and thermal conductivity, the thickness of preferred heating panel is at approximately 0.2mm and the approximately scope between the 2mm.According to actual needs, heating panel can also comprise multi-layer sheet, realizes good bending property thus on the one hand, also realizes fully total cross section simultaneously.Usually preferred heating panel by have the good heat conductive performance, and the material that has deformation performance simultaneously constitute for example aluminium, copper or copper-plated aluminium.

In a preferred embodiment of the invention, heat dissipation element has through hole, and wherein, heating panel is the partial penetration through hole at least.At this particularly preferably, part that the pleurapophysis relative with the accumulate element from heat dissipation element of heating panel stretches out produces distortion, with heat dissipation element form machinery, particularly power cooperation and/or frictional fit and/or form fit is connected.By fixed form, on heat dissipation element, both realized having good thermo-contact and realized simultaneously also that continuous and reliable fixed by means of heating panel distortion.

In the preferred variant of embodiment, the mechanical engagement connection realizes by the metal sheet that is arranged on the heat dissipation element, realizes by common moulding heating panel and metal sheet spare especially.Therefore, plate spare (or polylith plate spare) is for example handled especially in the process of processing heat dissipation element by the mode of plane welding, plate spare and heat dissipation element reliably and with good especially thermo-contact form are linked together.

Preferably, the technical scheme that helps good heat transmission also is, the ledge of heating panel is formed directly on the heat dissipation element.

In particularly preferred concrete structure scheme, the through hole of heat dissipation element has narrow slit structure, and this narrow slit structure has the central section of widening.This central section can have circular cross section, and this circular cross section has special tapered edge, thereby forms half sheet tubular rivet by the moulding of heating panel on this section of through hole, and the mechanical strength and the thermal bonding performance of this half sheet tubular rivet are strong especially.

Have in the embodiment of advantage at another, heating panel has the structure that Plane Angle narrows down gradually at its end towards heat dissipation element, and wherein, this structure is engaged in the corresponding groove of heat dissipation element, particularly frictional fit.In preferred concrete structure scheme, the opening angle of this structure of heating panel is between about 3 ° and about 9 °, particularly between about 5 ° and about 7 °.In such fixedly installing, mainly realize fixing by frictional fit, wherein, selected opening angle material to the rubbing angle scope that forms self-locking in.Except bigger contact-making surface, also had such advantage, that is, make this groove needn't run through heat dissipation element fully, perhaps must not make groove shaped become through hole.

In another embodiment of the present invention, heating panel is connected with heat dissipation element by at least one rivet.Riveted joint structure can be used as equally special device be applicable to realize heating panel and heat dissipation element comprehensively, because contacting of being subjected to that the power impact forms.In order to realize cheap and ease for operation, rivet is made of plastics in the first concrete structure scheme.Can make a plurality of rivets one-body molded on plastic rails at this especially, assembling process can further be simplified and automation.The shaping of plastic rivet head can be processed by drop stamping, ultra-sonic welded or other hot mechanical molding and be realized.In a conversion scheme of replenishing or replacing, rivet is made of metal, and forms countersunk rivet especially.Can realize king-sized pressure between heating panel and the heat dissipation element by metal rivet, and therefore realize good especially thermo-contact.

In yet another embodiment of the present invention, be provided with forming tank on heat dissipation element, be provided with on heating panel and the corresponding structure of this forming tank, wherein, heating panel is plugged in the forming tank ordinatedly by this planform.On at least two direction in spaces, realize form fit thus, wherein, in forming tank, realize bigger contact-making surface thus.According to actual needs can also be especially on the forming tank direction, move in order to prevent, by adhesive or by resilient clamp realize adding fixing.

In yet another embodiment of the present invention, heating panel is realized good thermo-contact in simple mode thus by being fixed on the heat dissipation element under the clamping components applied pressure.In preferred expansion scheme, on the guardrail that clamping components is supported on heat dissipation element links to each other, wherein, in guardrail, be provided with the polylith heating panel especially thus.Realize the further simplification and the automation of assembling thus.

Other advantage of the present invention and feature provide in the embodiment of the following stated and dependent claims.

Description of drawings

Next, in conjunction with the accompanying drawings a plurality of embodiment of the present invention are elaborated.There is shown:

Fig. 1 shows the concrete structure schematic diagram of first embodiment of the heating panel that runs through heat dissipation element of the present invention;

Fig. 2 shows before the heating panel local deformation of the present invention and is out of shape the upward view of back second embodiment;

Fig. 3 shows along the A-A line of the device of Fig. 2 and two parts sectional view of B-B line;

Fig. 4 shows the another vertical view of device after heating panel is badly deformed of Fig. 2;

Fig. 5 shows the schematic diagram of the another embodiment of heating panel of the present invention and heat dissipation element riveted joint structure;

Fig. 6 shows the schematic diagram of a conversion scheme of the embodiment of Fig. 5;

Fig. 7 shows the schematic diagram of another conversion scheme of the embodiment of Fig. 5;

The schematic diagram of another embodiment that Fig. 8 shows the present invention when adopting the forming tank of form fit;

Fig. 9 shows the schematic diagram that heating panel has another embodiment of pyramidal structure;

Figure 10 shows the schematic cross-section that is fixed on the heating panel on the heat dissipation element of Fig. 9;

Figure 11 shows the sectional view of heating panel among another embodiment of the present invention;

The embodiment that Figure 12 shows Figure 11 is fixed to the schematic diagram of the heating panel on the heat dissipation element via clamping components;

The embodiment that Figure 13 shows Figure 12 does not have the stereogram of clamping components under the part confined state.

Embodiment

In first embodiment shown in Fig. 1, the heat dissipation element 1 of being flowed through by fluid has a plurality of slit through holes 2, and these through holes respectively are plugged with a heating panel 3 respectively.On heating panel 3, fix one or more lithium atom storage battery (not shown) that are coffee bag structure (Coffee-Bag-Bauweise) respectively by bonding way.Run through the part of through hole 2 and go up projection at the opposite side (top in the drawings) of heat dissipation element and come out, and run through part this this and be connected with plate 4 by crimping or folding part 5.Metal sheet spare 4 has and is appendix 4a plane formula, crooked, by this appendix make plate spare and heat dissipation element comprehensively (full area) weld together.

Common distortion by heating panel 3 and plate 4 has realized that power cooperation, frictional fit and interlock fit are connected, and such connection has good heat-conducting.Can also additionally make the section of heating panel 3 carry out bending, and abut on the bottom side of heat dissipation element shown in Figure 1 comprehensively (full area) with the shape of pin.

Fig. 2 illustrates another embodiment, and the heating panel in the through hole 2 that is inserted into heat dissipation element 1 is fixed by deformation process.

To this, through hole sees to have slit section 2a and be positioned at section 2b central authorities, that width is bigger, that cardinal principle is rounded from the side.Heating panel is divided into three

intercept

3a, 3b, 3c on it passes the end regions of heat dissipation element, wherein,

side intercept

3a, 3c curve pressing plate with about 90 with spending, and do not pass the slit part 2a of through hole 2, but heating panel is supported on the heat dissipation element all sidedly.The intercept 3b that passes the centre of through hole 2 is molded on the central section 2b of through hole with the form of half sheet tubular rivet.The protuberance that runs through the intercept of slit section 2a curves pressing plate.

In the sectional view of Fig. 3, show the different cross section figure on left side and right side for clear expression.Wherein can see the distolateral zone of the lithium atom storage battery 6 that is bonded on the heating panel 3.

The upward view of Fig. 4 also shows intercept 3a, the 3c on the opposite flank that is supported on board-like heat dissipation element in order to know expression, and this part intercept is actually sightless.At this,

intercept

3a, 3c are provided with the crimping 3d that has been used for booster action.In this embodiment, the two blocks of heating panels of planting respectively on same through hole 2 wherein, can also make identical heating panel be made of two-ply according to actual needs.Have on one or more layers the heating panel, these laminates join domain among similar Fig. 15 on the other end is interconnected with one another together like that.

In the embodiment of Fig. 5, on heating panel (not shown) for example by fixed clamp, bonding or the extruding injection moulding be provided with plastic rails 7.This plastic rails 7 has a plurality of outstanding pins or rivet 8, and the through hole 9 that these pins or rivet pass heat dissipation element 1 is deformed into manufactured head then.This distortion can realize by hot pressing or other suitable mode.

Heat dissipation element 1 has flat tube 1a, and stream has cold-producing medium or coolant in flat tube.For further reinforcement, rivet is inserted in the strengthening part 9.

Fig. 6 shows the conversion scheme of the embodiment of Fig. 5, and strengthening part wherein is not set.

Fig. 7 shows another variation scheme that heating panel 3 and heat dissipation element 1 are riveted together, wherein, metal countersunk rivet is from passing the through hole the heat dissipation element 1 away from a side of accumulate element, and passes the pressing plate on the heat dissipation element 1 of abutting in of heating panel 3, and then moulding.This fixed form has advantage for narrow structure especially, the situation of shown in for example and accumulate elements 6 rivet 10 overlap joints.

Fig. 8 has schematically shown an embodiment, wherein, is advanced in the corresponding type groove 12 of heat dissipation element 1 to deformed end 11 form fit of heating panel 3.If friction or the elastic stress that produces owing to distortion do not have fully to be implemented in fixing on the direction of propulsion, can adopt bonding processing extraly so, maybe can also will curve pressing plate at distolateral outstanding plate.

Fig. 9 and Figure 10 show an embodiment, and wherein, heating panel 3 distolateral has the structure that narrows down gradually with about 6 ° Plane Angle, form compressing tablet 13, and these compressing tablets are inserted in the groove 14 of corresponding, taper of heat dissipation element 1.Groove 14 can be a scrotiform, perhaps also can form through hole (referring to Figure 10).By selecting cone angle aptly, can under the condition of good plane contact, realize fixedly installing of lasting frictional fit.Added security can realize by the adhesive that adopts subsequently, perhaps can also be on the structure of suitable compressing tablet 13 handles by extra clip and realizes.

Figure 11 to Figure 13 shows an alternative embodiment of the invention, and wherein, heating panel 3 is flat legs 15 distolateral being bent and deformed, and flat legs is flat on the surface of heat dissipation element 1.On a relative end, heating panel 3 is by clamping components 16, and with continuous vertical compression sheet that is covered in heating panel or the form of pressing plate 16a, and the connecting elements 16b of flexible side formation hook is pressed to heat dissipation element 1 with heating panel.

Connecting elements 16b is connected with compressing tablet 16a on the one hand, hangs over tightly among the groove 17a of guardrail 17 in advance on the other hand.Guardrail 17 surrounds polylith heating panel 3 and fixedlys connected with heat dissipation element 1, and such structure for example can be realized by welding in the process of making heat dissipation element 1.

Can be understood as, the feature separately of different embodiment can be had a mind to the free burial ground for the destitute according to actual needs and be mutually combined.

Claims

1. device that is used for vehicle battery heat radiation comprises a plurality of accumulate elements (6) and by the heat dissipation element (1) of heat-sink fluid flow warp, wherein, at least one accumulate element (6) is fixed at least one block of heating panel (3) with the form of thermo-contact, and

Wherein, be used for the heating panel (3) on the heat transferred fluid of accumulate element (6) is connected with described heat dissipation element (1),

It is characterized in that described heating panel (3) has the mechanical connection structure that comprehensively is connected with described heat dissipation element (1).

2. device according to claim 1 is characterized in that, described heating panel (3) be fixed on the described heat dissipation element (1) after accumulate element (6) is connected.

3. according to aforementioned any described device of claim, it is characterized in that the thickness of described heating panel (3) is at approximately 0.2mm and the approximately scope between the 2mm.

4. according to aforementioned any described device of claim, it is characterized in that described heating panel (3) comprises stacked conducting plate.

5. according to aforementioned any described device of claim, it is characterized in that described heat dissipation element (1) has through hole (2), wherein, described heating panel (3) is the described through hole of partial penetration (2) at least.

6. device according to claim 5, it is characterized in that, part that a pleurapophysis relative with accumulate element (6) from described heat dissipation element (1) of described heating panel (3) stretches out produces distortion, with described heat dissipation element form machinery, particularly power cooperation and/or frictional fit and/or form fit is connected.

7. device according to claim 6 is characterized in that, described mechanical engagement connection realizes that by the plate (4) that is arranged on the described heat dissipation element (1) the common distortion by described heating panel (3) and plate (4) realizes especially.

8. device according to claim 6 is characterized in that, the ledge of described heating panel (3) is molded directly within on the described heat dissipation element (1).

9. device according to claim 8 is characterized in that, the through hole of described heat dissipation element (1) has narrow slit structure (2a), and this narrow slit structure has the central section (2b) of widening.

10. according to aforementioned any described device of claim, it is characterized in that, described heating panel (3) has the structure (13) that Plane Angle narrows down gradually at its end towards described heat dissipation element (1), wherein, be engaged in to the special frictional fit of this structure in the corresponding groove (14) of described heat dissipation element (1).

11. device according to claim 10 is characterized in that, the opening angle of the structure (13) of described heating panel (3) is between about 3 ° and about 9 °, particularly between about 5 ° and about 7 °.

12., it is characterized in that described heating panel (3) is connected with described heat dissipation element (1) by at least one rivet (8,10) according to aforementioned any described device of claim.

13. device according to claim 12 is characterized in that, described rivet (8) is made of plastics.

14. device according to claim 13 is characterized in that, a plurality of rivets are gone up one-body molded in plastic rails (7).

15. device according to claim 12 is characterized in that, described rivet (10) is made of metal, and forms countersunk rivet especially.

16. according to aforementioned any described device of claim, it is characterized in that, on described heat dissipation element (1), be provided with forming tank (12), on described heating panel, be provided with and the corresponding modification end of this type groove (11), wherein, described heating panel (3) by this modification end (11) form fit be plugged in the described forming tank (12).

17. device according to claim 16 is characterized in that, by adhesive or by resilient clamp realize adding fixing.

18., it is characterized in that described heating panel is being fixed on the described heat dissipation element under the pressure of clamping components (16) according to aforementioned any described device of claim.

19. device according to claim 18 is characterized in that, described clamping components (16) is supported on the guardrail (17) that links to each other with described heat dissipation element, wherein, is provided with polylith heating panel (3) especially in described guardrail (17).